KR19980702690A - Color display tube with reduced deflection defocusing - Google Patents

Abstract

The color display tube includes an inline electron gun, a self-converging deflection coil, a shadow mask with an aperture pattern, and a display screen with phosphor dots. The opening pattern is comprised of openings 204 aligned in a vertical row, wherein the vertical opening spacing between the centers of successive pairs of openings in each vertical column is indeed the same. The vertical rows of openings 204 are staggered alternately at half the vertical opening spacing. The electron gun generates three electron beams in a vertical plane passing through the axis of the color display tube. Phosphorescent dots 206 are aligned in a triplet of vertical. Both the aperture 204 and the phosphor dot 206 extend horizontally. The horizontal spacing between the vertical rows of the openings of the opening pattern is set to be ½ Times, for example, equal to 1/2 of the vertical opening spacing. Better sharpness due to reduced deflection defocusing is obtained in this color display tube without moire phenomenon.

Description

Color display tube with reduced deflection defocusing

Color display tubes of this type are generally known. The shadow mask is a hexagonal mask with a circular opening and the phosphor dot pattern will have phosphorescent dots arranged in triplets horizontally. Alternatively, the shadow mask would be an aperture pattern with vertically extending elongated openings or slits, in which case the phosphor dot pattern would consist of continuous vertical phosphor strips. In all cases, the electron gun is adapted to generate three electron beams in a horizontal plane passing through the axis of the color display tube. In fact, only color display tubes containing horizontal inline electron guns are currently sold worldwide.

In particular, three electron beams located on a horizontal plane, each modulated with three colors, one of red, green and blue, are used in current color display tubes to display video images or computer data. The electron beam always converges to a point while being directed to the center point of the display screen and magnetically deflected to the other part of the display screen by the self-converging deflection coil. A metal shadow mask with apertures or slits is arranged at a short distance from the display screen and the shadow mask partially passes the beam so that each of the three electron beams collide exclusively with the display screen at the location where the phosphor is provided, The incident electron beam is emitted in a modulated color.

The magnetic deflection system used in known color display tubes has the disadvantage that when horizontally deflected, the horizontal size of the electronic dots on the display screen is enlarged and defocused in the vertical direction, which affects the sharpness of the displayed image. These effects increase in a quadratic fashion with respect to the horizontal deflection and become very apparent in a color display tube having a large deflection angle of, for example, 110 DEG. The color display tube with such a large deflection angle has, at their small depth, , Are particularly used in color display tubes having a large display screen size.

Interested readers are entitled " The 20AX System and Picture Tube, " IEEE Trans. On Broadcast and TV Receivers, by P.G.J. Barten, vol. 20, no. 4, pp. 286-292, November 1974 ".

The present invention relates to an in-line electron gun, a self-convergent deflection coil, a shadow mask with an aperture pattern and a pattern of phorps dots The invention relates to a color display tube comprising a display screen, wherein the opening pattern is constituted by openings arranged in a vertical column, and the vertical opening intervals between the centers of the pairs of openings successive in each column of the vertical column are substantially the same , And the vertical rows of openings are staggered alternately at 1/2 of the vertical opening spacing.

1 is a horizontal sectional view through a shaft of a conventional color display tube;

Figure 2 is a vertical cross-section through the shaft of an embodiment of the proposed color display tube.

3 is a schematic structural view of a pattern of an opening pattern and a phosphor dot of a conventional color display tube having a hexagonal shadow mask.

Fig. 4 schematically shows a possible configuration of an aperture pattern and a phosphor dot pattern of a color display tube according to the present invention, in which the geometry of the center of the shadow mask is the same as that of a conventional hexagonal shadow mask; Fig.

5 is a view similar to FIG. 4 showing another possible configuration of the aperture pattern and phosphorescent dot pattern of a color display tube according to the present invention, wherein the horizontal spacing between the vertical rows of openings is equal to one-half of the vertical opening spacing .

It is an object of the present invention to reduce deflection defocusing in conventional color display tubes by providing a new color display tube arrangement.

To this end, the present invention provides a color display tube of the type described in the introduction, characterized in that the electron gun is adapted to produce three electron beams in a vertical plane passing through the axis of the color display tube, triplets), and points where both the aperture and the phosphorescent dot extend horizontally.

The key idea of the new device of the proposed color display tube is that it does not generate three electron beams in the horizontal plane as in the conventional implementation but is adapted to generate three electron beams in the vertical plane passing through the axis of the color display tube, Will greatly reduce the defocus caused by deflection in the image displayed on the display screen.

It should be apparent to those skilled in the art that the deflection system must then be adapted to maintain the self-convergence of the electron beam. In the proposed new device of color display tube, the magnetic field of the horizontal deflection coil has the characteristic of the magnetic field of the deflection vertical deflection coil of the conventional deflection system, and the magnetic field of the vertical deflection coil is the magnetic field of the horizontal deflection coil of the conventional deflection system . The combination of horizontal and vertical deflection coils is referred to as a self-converging deflection coil.

It is true that the defocusing effect occurs when deflecting in the vertical direction, but because of the rectangular image format, the deflection in the vertical direction is much smaller than the deflection in the horizontal direction, It can be practically neglected. This is especially true for color display tubes with a 16: 9 display screen format where the vertical deflection is only 9/16 of the horizontal deflection and the defocusing is reduced by the square root value of the value, The distance of defocusing in the horizontal direction of 0.32 is reduced.

However, when the electron beam is present in the vertical plane, not only the deflection system, but also the configuration of the opening pattern of the shadow mask and the arrangement of the phosphorescent dot pattern on the associated display screen are also adapted. In this case, it is clear that simply rotating the two patterns by 90 degrees. However, this is due to the cumbersome moiré phenomenon consisting of dark and light streams in the image displayed on the display screen phenomenon, which is caused by the interference between the horizontal scan line and the opening pattern of the shadow mask. Such a moire effect is particularly evident when using a phosphor dot pattern consisting of a continuous shadow and a shadow mask with vertical slits. This effect, however, also occurs when a shadow mask having circular openings arranged in a hexagonal pattern is rotated by 90 degrees, which form is particularly used in monitor color display tubes. In a conventional color display tube, this type of mask is structured such that the opening pattern is constituted by a circular opening arranged in a vertical column, the vertical opening spacing between the centers of successive opening pairs in each column of the vertical column is actually the same, Are alternately staggered at a half of the vertical opening interval. When the vertical distance between the center of the openings is represented by a, the vertical distance between the horizontal rows of two adjacent openings is 1 / 2a. This gap is small enough to prevent the moire phenomenon. However, when the mask rotates by 90 degrees, the vertical spacing between the two horizontal rows of circular openings is 1 / 2a , Which is about 1.73 times larger than that of the former. Since the intensity of the resulting Moore phenomenon increases very strongly with respect to the vertical spacing between the horizontal rows of two adjacent openings, the Moore phenomenon will generally occur to an unacceptable degree.

Interested readers may be referred to PGJ Barten " Theorie des Moir bei Schattenmasker Farbbildr hren, Valvo Berichte, vol. 15, no. 3, pp. 79-92, November 1969 ", may find other background information on the moire phenomenon in the color display tube.

However, according to the present invention, occurrence of the moire phenomenon can be prevented by aligning three pairs of phosphors vertically instead of horizontally, rather than rotating the opening pattern of the shadow mask by 90 degrees, Both material dots extend horizontally long. As a result, a satisfactory filling of the display screen is obtained and over laps are prevented.

The geometry of a conventional hexagonal mask is used as the basis for the center of the aperture in the shadow mask, the horizontal size of the phosphor dot is enlarged by a factor of 3/2 and the vertical dimension , So that the phosphorescent dot is horizontally enlarged at a length / width ratio of about 2.6. The mask opening will then have a horizontally enlarged shape as much as possible.

However, it is not necessary to use the conventional hexagonal geometry as the basis for the center of the aperture in the shadow mask. Interstitial tetragonal geometry is obtained by making the horizontal spacing between the two vertical rows of openings equal to one-half of the vertical opening spacing, which provides a better resolution for the color display tube , And the length / width ratio is 1.5.

Alternatively, intermediate shapes are possible. For example, a shadow mask can be used where the horizontal spacing between the vertical rows of openings is 2/3 of the vertical opening spacing. In this case, the phosphor dot will have a length-to-width ratio of two.

These and other aspects of the present invention will become apparent through the embodiments described below.

As used in the previous embodiments by those skilled in the art, the terms relative to horizontal and vertical will be used throughout the detailed description of the present application, including the claims.

1 is a horizontal cross-sectional view through a shaft of a conventional color display tube. The tube comprises an inline electron gun indicated by reference numeral 1, a self-converging deflection coil 2, a shadow mask 3, an opening pattern 4 of a shadow mask 3, a display screen 5, A phosphor coating layer 6 (composed of the dot pattern described above), three electron beams 7, 8 and 9, and an axis 10 of the color display tube.

The structure of the conventional color display tube shown in FIG. 1 and its operation and drive mode are already well known to those skilled in the art.

2 is a vertical cross-sectional view through an axis of an embodiment of a color display tube according to the present invention. Corresponding parts of the color display tube shown in Fig. 2 are denoted by the same reference numerals as in Fig.

The color display tube of Figure 2 is clearly different from Figure 1 due to the vertical structure of the electron beams 7, 8 and 9 instead of the horizontal structure.

Starting from the conventional color display tube shown in Fig. 1 and after carrying out the action according to the invention, one skilled in the art can easily place three electron beams 7, 8 and 9 on a vertical plane, And in particular the self-converging deflection coil 2, in such a way that the self-convergence of the deflection coils 2 and 9 is maintained.

Other measures in accordance with the present invention will be apparent with reference to FIGS. 3 through 5, which for the sake of example convenience show a phosphor dot pattern positioned in the plane of each figure and an aperture pattern projected in the plane of the figure, For the same reason, the outline of the opening is marked with a dashed line.

Fig. 3 schematically shows the structure of the opening pattern 4 and the phosphor dot pattern 6 in the color display tube of Fig. In particular, FIG. 3 shows a hexagonal shadow mask having a circular opening 104 and three hexagonal shadow masks, denoted by a line 111, each of which comprises, for example, a green dot at the center and blue and red dots at each of the three pairs of ends A portion of the phosphor dot pattern composed of the dot pattern 106 is shown. The center of the circular opening 104 of the hexagonal shadow mask is denoted by the reference numeral 112.

In a hexagonal shadow mask, the openings 104 are aligned in a vertical column, and the vertical opening spacing (denoted by reference character (a)) between the centers of each pair of successive openings 104 in each column is substantially the same , And the openings 104 are alternately staggered with half the spacing of the vertical opening spacing, the alternating arrangement being denoted by (b), where b = a / 2. Indeed, the expression of the same vertical aperture spacing is because the same vertical aperture spacing is applied only at exactly the center portion of the shadow mask of the color display tube having, for example, an edge-compliant bounding contour.

When the conventional configuration of the shadow mask 3 and the display screen 5 of the conventional structure shown in Fig. 3 is rotated by 90 degrees and used in the color display tube of Fig. 2, that is, when three vertically- As shown in Figure 3, the spacing c between the two horizontal rows of apertures 104 is less than half the spacing a (B) < RTI ID = 0.0 > And therefore, Moir ) Phenomenon will appear.

Figures 4 and 5 illustrate a possible solution to the moire problem while maintaining the advantages of reduced deflection defocusing.

Figure 4 schematically illustrates a possible structure of the aperture pattern 4 and the phosphor dot pattern 6 of the color display tube according to the present invention in which the geometry of the opening 204 center 212 of the shadow mask 3 It is the same as the geometry of the conventional hexagonal shadow mask. As shown in FIG. 4, phosphorescent dot 206 is aligned with vertical triplets, indicated by line 211, while opening 204 and phosphor dot 206 extend horizontally. In other words, it is a horizontally extending phosphorescent dot structure, wherein the dot 206 has the shape of a rectangular opening with a semicircular end and a corresponding opening 204.

Similar to the structure shown in Fig. 3, the structure of Fig. 4 shows the horizontal spacing between the vertical rows of openings 104 and 304, denoted by reference numeral c, Expressed as 1/2 .

5, the horizontal spacing between the vertical rows of the openings 304 is equal to half of the vertical opening spacing a, so that an interlaced quadrilateral geometry with a length-to-width ratio of 1.5 is obtained.

5, phosphorescent dots, triplets and aperture centers are denoted by reference numerals 306, 311 and 312, respectively.

The color display tube according to the present invention has a great advantage for use in a color television receiver set or a monitor suitable for a computer, for example.

Claims (5)

A color display tube comprising an inline electron gun, a self-converging deflection coil, a shadow mask with an aperture pattern, and a display screen with phorsphor dots, said aperture pattern comprising an aperture aligned in a vertical column Wherein the vertical opening spacing between the centers of successive aperture pairs in each column of the vertical column is in fact the same and the vertical columns of openings are staggered alternately at half the vertical aperture spacing, , Wherein the electron gun is adapted to generate three electron beams in a vertical plane passing through an axis of the color display tube, Phosphorescent dots are arranged in triplets in a vertical direction, Wherein both the aperture and the phosphorescent dot extend horizontally. The method as claimed in claim 1, wherein the horizontal spacing between the vertical rows of the openings of the opening pattern is ½ Wherein the thickness of the color display tube is less than or equal to the thickness of the color display tube. 3. The color display tube according to claim 2, wherein the horizontal interval between the vertical rows of the openings of the opening pattern is equal to or greater than 1/2 of the vertical opening interval. A color television set comprising a color display tube as claimed in any one of claims 1 to 3. A monitor comprising the color display tube as claimed in any one of claims 1 to 3.